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==        Instruction Set Summary for the core revision >= 5 microcode       ==
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Mnemonics | Operands   | Description                     | Operation
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Arithmetic and logic instructions:
add       | A,B,rD     | Add                             | rD=A+B
add.      | A,B,rD     | Add, set Carry                  | rD=A+B SaveCarry
addc      | A,B,rD     | Add with Carry                  | rD=A+B+Carry
addc.     | A,B,rD     | Add with Carry, set Carry       | rD=A+B+C SaveCarry
sub       | A,B,rD     | Subtract                        | rD=A-B
sub.      | A,B,rD     | Sub, set Carry                  | rD=A-B SaveCarry
subc      | A,B,rD     | Sub with Carry                  | rD=A-B-Carry
subc.     | A,B,rD     | Sub with Carry, set Carry       | rD=A-B-C SaveCarry
mul       | A,B,rD     | multiply (rev 11+ only)         | spr06d=lsb; rD=msb

Branch instructions:
jmp       | l          | Uncond. jump (virtual instr.)   | PC=l
jand      | A,B,l      | Jump if binary AND              | if(A&B) PC=l
jnand     | A,B,l      | Jump if not binary AND          | if(!(A&B)) PC=l
js        | A,B,l      | Jump if all bits set            | if((A&B)==A) PC=l
jns       | A,B,l      | Jump if not all bits set        | if((A&B)!=A) PC=l
je        | A,B,l      | Jump if equal                   | if(A==B) PC=l
jne       | A,B,l      | Jump if not equal               | if(A!=B) PC=l
jls       | A,B,l      | Jump if less (signed)           | if(A<B) PC=l
jges      | A,B,l      | Jump if greater or equal (sign.)| if(A>=B) PC=l
jgs       | A,B,l      | Jump if greater (signed)        | if(A>B) PC=l
jles      | A,B,l      | Jump if less or equal (signed)  | if(A<=B) PC=l
jl        | A,B,l      | Jump if less                    | if(A<B) PC=l
jge       | A,B,l      | Jump if greater or equal        | if(A>=B) PC=l
jg        | A,B,l      | Jump if greater                 | if(A>B) PC=l
jle       | A,B,l      | Jump if less or equal           | if(A<=B) PC=l
jdn       | A,B,l      | Jump if diff is < 0, no carry   | if(nc(A-B)<0) PC=l
jdpz      | A,B,l      | Jump if diff is >= 0, no carry  | if(nc(A-B)>=0) PC=l
jdp       | A,B,l      | Jump if diff is > 0, no carry   | if(nc(A-B)>0) PC=l
jdnz      | A,B,l      | Jump if diff is <= 0, no carry  | if(nc(A-B)<=0) PC=l
call      | lrX,l      | Store PC, call function         | lrX=PC; PC=l
calls     | l          | Store PC, call function         | PC->stack; PC=l
ret       | lrX,lrY    | Store PC, ret from func         | lrX=PC; PC=lrY
rets      |            | ret from function               | stack->PC
jzx       | M,S,A,B,l  | Jump if zero after shift + mask |
jnzx      | M,S,A,B,l  | Jump if nonzero after shift+msk |
jext      | E,A,B,l    | Jump if External Condition true | if(E) PC=l
jnext     | E,A,B,l    | Jump if External Condition false| if(!E) PC=l

Data transfer instructions:
mov       | A,rD       | Copy data (virtual instruction) | rD=A
tkiph     | A,rD       | TKIP S-Box lookup high          | rD=SBOX[hi8(A)]
tkiphs    | A,rD       | TKIP S-Box lkup hi swap'd       | rD=byteswap(tkiph)
tkipl     | A,rD       | TKIP S-Box lookup low           | rD=SBOX[lo8(A)]
tkipls    | A,rD       | TKIP S-Box lkup lo swap'd       | rD=byteswap(tkipl)

Bitwise instructions:
sra       | A,B,rD     | Arithmetic rightshift           | rD=A>>B fillup sign
or        | A,B,rD     | Bitwise OR                      | rD=A|B
and       | A,B,rD     | Bitwise AND                     | rD=A&B
xor       | A,B,rD     | Bitwise XOR                     | rD=A^B
sr        | A,B,rD     | Rightshift                      | rD=A>>B
sl        | A,B,rD     | Leftshift                       | rD=A<<B
srx       | M,S,A,B,rD | Shift right over two registers  | See detailed docs
rl        | A,B,rD     | Rotate left                     | rD=lrot(A, B bits)
rr        | A,B,rD     | Rotate right                    | rD=rrot(A, B bits)
nand      | A,B,rD     | Clear bits (notmask+and)        | rD=A&(~B)
orx       | M,S,A,B,rD | OR with shift and select        | See detailed docs

Other instructions:
nap       | none       | Sleep until event               | See detailed docs



Description of Operands:

rD	= Destination Register (GPR or SPR)
A	= Source Register (GPR or SPR) or Immediate
B	= Source Register (GPR or SPR) or Immediate
M	= Mask
S	= Shift
E	= External Condition
l	= Branch label or address
lrX	= Link Register (lr0 - lr3)
lrY	= Link Register (lr0 - lr3)


Raw instruction format:
@bitcode_in_hexadecimal
Example: @1C0 @C11,@C22,r3


Virtual instructions are translated by the assembler to other
lowlevel instructions.


Please also see the detailed microcode documentation at:
http://bcm-v4.sipsolutions.net/802.11/Microcode

